Datasheet 2.7V to 5.5V Input, 3A Integrated MOSFET Single Synchronous Bu ck DC/DC Converter BD9A300MUV General Description Key Specifications BD9A300MUV is a synchronous buck switching Input Voltage Range 2.7V to 5.5V regulator with built-in low on-resistance power MOSFETs. Output Voltage Range 0.8V to VPVIN0.7V TM It is capable of providing current up to 3A.The SLLM Average Output Current 3A(Max) control provides excellent efficiency characteristics in Switching Frequency 1MHz(Typ) light-load conditions which make the product ideal for High-Side MOSFET On-Resistance 60m(Typ) equipment and devices that demand minimal standby Low-Side MOSFET On-Resistance 60m(Typ) power consumption. The oscillating frequency is high at Standby Current 0A(Typ) 1MHz using a small value of inductance. It is a current mode control DC/DC converter and features high-speed transient response. Phase compensation can also be set Package W(Typ) x D(Typ) x H(Max) easily. VQFN016V3030 3.00mm x 3.00mm x 1.00mm Features Synchronous Single DC/DC Converter. TM SLLM (Simple Light Load Mode)Control. Over Current Protection. Short Circuit Protection. Thermal Shutdown Protection. Under Voltage Lockout Protection. Adjustable Soft start Function. Power Good Output. VQFN016V3030 Package(Backside Heat Dissipation) VQFN016V3030 Applications Step-down Power Supply for DSPs, FPGAs, Microprocessors, etc. Laptop PCs/ Tablet PCs/ Servers. LCD TVs. Storage Devices (HDDs/SSDs). Printers, OA Equipment. Entertainment Devices. Distributed Power Supply, Secondary Power Supply. Typical Application Circuit BD9A300MUV PGD VIN PVIN PGD AVIN BOOT MODE MODE 0.1F 10 F 0.1F VOUT Enable SW EN 1.5H SS ITH 22F2 R 1 PGND FB R ITH AGND C SS C R ITH 2 Figure 1. Application Circuit Product structure : Silicon monolithic integrated circuit This product has no designed protection against radioactive rays w ww.rohm.com TSZ02201-0J3J0AJ00350-1-2 2013 ROHM Co., Ltd. All rights reserved. 1/32 TSZ2211114001 30.Jun.2017 Rev.003 BD9A300MUV Pin Configuration (TOP VIEW) 16 15 14 13 PVIN 1 12 SW PVIN 2 11 SW FIN PGND 3 10 SW PGND 4 9 SS 5 6 7 8 Figure 2. Pin Configuration Pin Descriptions Pin No. Pin Name Function Power supply terminals for the switching regulator. 1, 2 PVIN These terminals supply power to the output stage of the switching regulator. Connecting a 10F ceramic capacitor is recommended. 3, 4 PGND Ground terminals for the output stage of the switching regulator. 5 AGND Ground terminal for the control circuit. An inverting input node for the gm error amplifier. 6 FB See page 23 for how to calculate the resistance of the output voltage setting. An input terminal for the gm error amplifier output and the output switch current comparator. 7 ITH Connect a frequency phase compensation component to this terminal. See page 24 for how to calculate the resistance and capacitance for phase compensation. Turning this terminal signal Low (0.2V or lower) forces the device to operate in the fixed frequency PWM mode. Turning this terminal signal High (0.8V or higher) enables the SLLM 8 MODE control and the mode is automatically switched between the SLLM control and fixed frequency PWM mode. Terminal for setting the soft start time. The rise time of the output voltage can be specified by 9 SS connecting a capacitor to this terminal. See page 23 for how to calculate the capacitance. Switch nodes. These terminals are connected to the source of the high-side MOSFET and drain of the low-side MOSFET. Connect a bootstrap capacitor of 0.1F between these terminals and 10, 11, 12 SW BOOT terminals. In addition, connect an inductor of 1.5H considering the direct current superimposition characteristic. Connect a bootstrap capacitor of 0.1F between this terminal and SW terminals. 13 BOOT The voltage of this capacitor is the gate drive voltage of the high-side MOSFET. A Power Good terminal, an open drain output. Use of pull up resistor is needed. See page 18 14 PGD for how to specify the resistance. When the FB terminal voltage reaches within 7% of 0.8V (Typ), the internal Nch MOSFET turns off and the output turns High. Turning this terminal signal low (0.8V or lower) forces the device to enter the shutdown mode. 15 EN Turning this terminal signal high (2.0V or higher) enables the device. This terminal must be terminated. Supplies power to the control circuit of the switching regulator. 16 AVIN Connecting a 0.1F ceramic capacitor is recommended. A backside heat dissipation pad. Connecting to the internal PCB ground plane by using multiple - FIN vias provides excellent heat dissipation characteristics. www.rohm.com TSZ02201-0J3J0AJ00350-1-2 2013 ROHM Co., Ltd. All rights reserved. 2/32 TSZ2211115001 30.Jun.2017 Rev.003 AGND AVIN FB EN ITH PGD MODE BOOT